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Antihydrogen detection in ALPHA

Richard Hydomako, Gorm Bruun Andresen, Mohammad Dehghani Ashkezari, Marcelo Baquero-Ruiz, William Bertsche, Eoin Butler, Paul David Bowe, Claudo Lenz Cesar, Steve Chapman, Michael Charlton, Joel Fajans, Tim Friesen, Makoto C Fujiwara, David Russell Gill, Jeffrey Scott Hangst, Walter Newbold Hardy, Ryugo S Hayano, Michael Edward Hayden, Andrew James Humphries, Svante Jonsell, Leonid Kurchaninov, Niels Madsen Orcid Logo, Scott Menary, Paul Nolan, Konstantin Olchanski, Arthur Olin, Alexander Povilus, Petteri Pusa, Francis Robicheaux, Elazar Sarid, Daniel Miranda Silveira, So Chukman, James William Storey, Robert Ian Thompson, Dirk Peter Werf, Jonathan Syrkin Wurtele, Yasunori Yamazaki

LEAP 2011, Pages: 91 - 99

Swansea University Author: Niels Madsen Orcid Logo

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DOI (Published version): 10.1007/978-94-007-5530-7_10

Abstract

The ALPHA project is an international collaboration, based at CERN, with the experimental goal of performing precision spectroscopic measurements on antihydrogen. As part of this endeavor, the ALPHA experiment includes a silicon tracking detector. This detector consists of a three-layer array of sil...

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Published in: LEAP 2011
Published: Vancouver 2013
URI: https://cronfa.swan.ac.uk/Record/cronfa15089
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Using this device, the antihydrogen annihilation position can be determined with a spatial resolution of better than 5 mm. Knowledge of the annihilation distribution was a critical component in the recently successful antihydrogen trapping effort. This paper will describe the methods used to reconstruct annihilation events in the ALPHA detector. 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spelling 2013-06-18T09:45:00.9202910 v2 15089 2013-06-14 Antihydrogen detection in ALPHA e348e4d768ee19c1d0c68ce3a66d6303 0000-0002-7372-0784 Niels Madsen Niels Madsen true false 2013-06-14 SPH The ALPHA project is an international collaboration, based at CERN, with the experimental goal of performing precision spectroscopic measurements on antihydrogen. As part of this endeavor, the ALPHA experiment includes a silicon tracking detector. This detector consists of a three-layer array of silicon modules surrounding the antihydrogen trapping region of the ALPHA apparatus. Using this device, the antihydrogen annihilation position can be determined with a spatial resolution of better than 5 mm. Knowledge of the annihilation distribution was a critical component in the recently successful antihydrogen trapping effort. This paper will describe the methods used to reconstruct annihilation events in the ALPHA detector. Particular attention will be given to the description of the background rejection criteria. Conference Paper/Proceeding/Abstract LEAP 2011 91 99 Vancouver 31 12 2013 2013-12-31 10.1007/978-94-007-5530-7_10 COLLEGE NANME Physics COLLEGE CODE SPH Swansea University 2013-06-18T09:45:00.9202910 2013-06-14T13:05:04.8544075 Faculty of Science and Engineering School of Biosciences, Geography and Physics - Physics Richard Hydomako 1 Gorm Bruun Andresen 2 Mohammad Dehghani Ashkezari 3 Marcelo Baquero-Ruiz 4 William Bertsche 5 Eoin Butler 6 Paul David Bowe 7 Claudo Lenz Cesar 8 Steve Chapman 9 Michael Charlton 10 Joel Fajans 11 Tim Friesen 12 Makoto C Fujiwara 13 David Russell Gill 14 Jeffrey Scott Hangst 15 Walter Newbold Hardy 16 Ryugo S Hayano 17 Michael Edward Hayden 18 Andrew James Humphries 19 Svante Jonsell 20 Leonid Kurchaninov 21 Niels Madsen 0000-0002-7372-0784 22 Scott Menary 23 Paul Nolan 24 Konstantin Olchanski 25 Arthur Olin 26 Alexander Povilus 27 Petteri Pusa 28 Francis Robicheaux 29 Elazar Sarid 30 Daniel Miranda Silveira 31 So Chukman 32 James William Storey 33 Robert Ian Thompson 34 Dirk Peter Werf 35 Jonathan Syrkin Wurtele 36 Yasunori Yamazaki 37
title Antihydrogen detection in ALPHA
spellingShingle Antihydrogen detection in ALPHA
Niels Madsen
title_short Antihydrogen detection in ALPHA
title_full Antihydrogen detection in ALPHA
title_fullStr Antihydrogen detection in ALPHA
title_full_unstemmed Antihydrogen detection in ALPHA
title_sort Antihydrogen detection in ALPHA
author_id_str_mv e348e4d768ee19c1d0c68ce3a66d6303
author_id_fullname_str_mv e348e4d768ee19c1d0c68ce3a66d6303_***_Niels Madsen
author Niels Madsen
author2 Richard Hydomako
Gorm Bruun Andresen
Mohammad Dehghani Ashkezari
Marcelo Baquero-Ruiz
William Bertsche
Eoin Butler
Paul David Bowe
Claudo Lenz Cesar
Steve Chapman
Michael Charlton
Joel Fajans
Tim Friesen
Makoto C Fujiwara
David Russell Gill
Jeffrey Scott Hangst
Walter Newbold Hardy
Ryugo S Hayano
Michael Edward Hayden
Andrew James Humphries
Svante Jonsell
Leonid Kurchaninov
Niels Madsen
Scott Menary
Paul Nolan
Konstantin Olchanski
Arthur Olin
Alexander Povilus
Petteri Pusa
Francis Robicheaux
Elazar Sarid
Daniel Miranda Silveira
So Chukman
James William Storey
Robert Ian Thompson
Dirk Peter Werf
Jonathan Syrkin Wurtele
Yasunori Yamazaki
format Conference Paper/Proceeding/Abstract
container_title LEAP 2011
container_start_page 91
publishDate 2013
institution Swansea University
doi_str_mv 10.1007/978-94-007-5530-7_10
college_str Faculty of Science and Engineering
hierarchytype
hierarchy_top_id facultyofscienceandengineering
hierarchy_top_title Faculty of Science and Engineering
hierarchy_parent_id facultyofscienceandengineering
hierarchy_parent_title Faculty of Science and Engineering
department_str School of Biosciences, Geography and Physics - Physics{{{_:::_}}}Faculty of Science and Engineering{{{_:::_}}}School of Biosciences, Geography and Physics - Physics
document_store_str 0
active_str 0
description The ALPHA project is an international collaboration, based at CERN, with the experimental goal of performing precision spectroscopic measurements on antihydrogen. As part of this endeavor, the ALPHA experiment includes a silicon tracking detector. This detector consists of a three-layer array of silicon modules surrounding the antihydrogen trapping region of the ALPHA apparatus. Using this device, the antihydrogen annihilation position can be determined with a spatial resolution of better than 5 mm. Knowledge of the annihilation distribution was a critical component in the recently successful antihydrogen trapping effort. This paper will describe the methods used to reconstruct annihilation events in the ALPHA detector. Particular attention will be given to the description of the background rejection criteria.
published_date 2013-12-31T03:17:13Z
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score 11.037144

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